from collections import deque class mf_graph: n=1 g=[[] for i in range(1)] pos=[] def __init__(self,N): self.n=N self.g=[[] for i in range(N)] self.pos=[] def add_edge(self,From,To,cap): assert 0<=From and From0): v=que.popleft() for e in self.g[v]: if e["cap"]==0 or level[e["to"]]>=0:continue level[e["to"]]=level[v]+1 if e["to"]==t:return que.append(e["to"]) def dfs(func,v,up): if (v==s):return up res=0 level_v=level[v] for i in range(Iter[v],len(self.g[v])): e=self.g[v][i] if (level_v<=level[e["to"]] or self.g[e["to"]][e["rev"]]["cap"]==0):continue d=func(func,e["to"],min(up-res,self.g[e["to"]][e["rev"]]["cap"])) if d<=0:continue self.g[v][i]["cap"]+=d self.g[e["to"]][e["rev"]]["cap"]-=d res+=d if res==up:return res level[v]=self.n return res flow=0 while(flow0): p=que.popleft() visited[p]=True for e in self.g[p]: if e["cap"] and not(visited[e["to"]]): visited[e["to"]]=True que.append(e["to"]) return visited def isSquare(x): #xは平方数か? ng = 3 * 10 ** 9 + 1 ok = 0 while abs(ok - ng) > 1: mid = (ok + ng) // 2 if mid * mid <= x: ok = mid else: ng = mid if ok * ok == x: return True else: return False N = int(input()) A = list(map(int,input().split())) even = [] odd = [] G = mf_graph(N + 2) for i in range(N): for j in range(30, -1, -1): if A[i] % 2: odd.append(A[i]) else: even.append(A[i]) break n = len(odd) m = len(even) for i in range(n): G.add_edge(0, i + 1, 1) for i in range(m): G.add_edge(n + i + 1, N + 1, 1) for i in range(n): for j in range(m): if isSquare(odd[i] ** 2 + even[j] ** 2): G.add_edge(i + 1, n + j + 1, 1) f = G.flow(0, N + 1) print(N - f)